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Experimental investigations on the performance and emissions characteristics of dual biodiesel blends on a varying compression ratio diesel engine

Navdeep Sharma Dugala, Gyanendra Singh Goindi, Ajay Sharma

2021SN Applied Sciences28 citationsDOIOpen Access PDF

Abstract

Abstract The present work discusses the performance and emissions characterization of dual biodiesel sample blends on a varying compression ratio diesel engine. The dual biodiesel blends were obtained by blending two biodiesels (Mahua and Jatropha) in equal proportions volume (1:1, v/v) with mineral diesel. The sample blends were obtained on a ‘percentage by volume’ basis and named B10, B20, B30, and B40 (B10 was a blend of 5% each biodiesel with 90% mineral diesel and similarly for all other sample blends). All the experiments were performed at a constant engine speed of 1500 rpm, 50% loading conditions (2.6 kW), and varying compression ratios of 13.5:1, 14.5:1, 15.5:1, and 16.5:1. The results revealed that the sample blends had slightly higher brake power and mechanical efficiency with sample blends B10 to B40 had (0.15–1.58%) higher brake power and (1.07–12.42%) higher mechanical efficiency as compared to mineral diesel at a compression ratio of 16.5:1. The In-cylinder peak pressure and exhaust gas temperature were observed to be lower than mineral diesel for the sample blends B10 to B40 by 0.15–0.36 bar and 11.1–69.8 ℃, respectively. Also, the emissions of carbon monoxide and hydrocarbons were lower by 33–62%, respectively, for the sample with the highest blend percentage. However, the carbon dioxide emissions were found to be higher by 42.85% than mineral diesel. From the overall performance and characterization, it is concluded that B20 had optimum properties and blend percentage to be a better substitute fuel for mineral diesel among all the tested samples.

Topics & Concepts

Diesel fuelBiodieselMaterials scienceDiesel engineCompression ratioComposite materialVolume (thermodynamics)Pulp and paper industryChemistryAutomotive engineeringOrganic chemistryCombustionThermodynamicsEngineeringCatalysisPhysicsBiodiesel Production and ApplicationsAdvanced Combustion Engine TechnologiesLubricants and Their Additives